CN220507879U - Guide rail type skylight glass outer surface detection gauge - Google Patents

Abstract

The utility model discloses a detection tool for detecting the outer surface of rail-type skylight glass, which comprises a base and a plurality of rails arranged on the base, wherein the rails are arranged in the X direction and the Y direction, each rail is slidably connected with a sliding block, each sliding block is correspondingly connected with a positioning cylinder one by one, and the positioning cylinders are arranged to drive the sliding blocks to simultaneously inwards approach to clamp the skylight glass or outwards separate from the skylight glass to loosen the skylight glass; every slider is last all to be equipped with along X to or Y to the peripheral outline detector that sets up and along the peripheral curvature detector of Z to setting up, and when the slider held skylight glass, peripheral outline detector can detect skylight glass's peripheral outline, and simultaneously, peripheral curvature detector can detect skylight glass's peripheral curvature. The guide rail type skylight glass outer surface detection gauge is simple in structure, easy to process, short in development period, low in use cost, convenient to operate and accurate and reliable in detection result.

Description

Guide rail type skylight glass outer surface detection gauge

Technical Field

The utility model relates to the technical field of automobile glass production and processing equipment, in particular to a guide rail type skylight glass outer surface detection gauge for detecting the molded surface of automobile skylight glass.

Background

Automotive glass is indispensable in automobile body annex, mainly plays the guard action. The automobile glass mainly comprises the following three types: laminated glass, toughened glass and regional toughened glass can bear stronger impact force. The automobile glass is divided into the following parts according to the positions: front windshield, side window, rear windshield and sunroof glass; the front windscreen is a laminated glass, the side window glass (some of the inexpensive agricultural vehicle front stops are still tempered glass or regional tempered glass) is tempered glass, and the rear windscreen is generally tempered glass with electric heating wires.

Since the automobile glass needs to be assembled on the automobile body, the matching curvature of the periphery of the glass and the automobile body needs to be controlled in order to ensure the assembled matching degree and appearance quality.

The prior art basically uses a feeler gauge to detect the matching curvature of the periphery of the glass and the vehicle body, specifically, the automobile glass is placed on the profiling surface, the gap between the lower surface of the automobile glass and the profiling surface is measured, the measured gap value is compared with a standard value, and whether the matching curvature of the periphery of the measured automobile glass and the vehicle body is qualified or not is judged, but the manual detection mode has low efficiency and poor precision, and has the hidden quality trouble that unqualified products flow out due to inaccurate detection.

Disclosure of Invention

The utility model aims to provide a guide rail type skylight glass outer surface detection gauge which is simple in structure, easy to process, short in development period, low in use cost, convenient to operate and accurate and reliable in detection result.

In order to achieve the above purpose, the utility model provides a guide rail type skylight glass outer surface detection gauge, which comprises a base and a plurality of guide rails, wherein the guide rails are arranged in an X direction and a Y direction, each guide rail is slidably connected with a sliding block, each sliding block is correspondingly connected with a positioning cylinder one by one, and the positioning cylinders are arranged to drive the sliding blocks to simultaneously approach inwards to clamp skylight glass or to separate outwards to loosen skylight glass;

every slider is last all to be equipped with along X to or Y to the peripheral outline detector that sets up and along the peripheral curvature detector of Z to setting up, and when the slider held skylight glass, peripheral outline detector can detect skylight glass's peripheral outline, and simultaneously, peripheral curvature detector can detect skylight glass's peripheral curvature.

Preferably, the central area on the base is provided with a support capable of supporting the sun roof glass.

Preferably, a pre-positioning member is formed on a side of the slider near the support member for pre-positioning the sunroof glass placed on the support member.

Preferably, the base is further provided with a jacking cylinder, and the jacking cylinder is arranged to jack the skylight glass along the Z direction.

Preferably, the base is further provided with a pressing cylinder, and the pressing cylinder is arranged to press the skylight glass along the Z direction.

Preferably, at least one of the sliding blocks on the guide rails arranged in the X direction is provided with a centering mechanism, and the centering mechanism is arranged to be capable of centering the X direction of the skylight glass.

Preferably, at least one of the sliding blocks on the guide rails arranged in the Y direction is provided with a centering mechanism, and the centering mechanism is arranged to be capable of centering the Y direction of the skylight glass.

Preferably, the perimeter profile detector is a dial indicator rotatably mounted on the slider.

Preferably, the peripheral curvature detector is a dial indicator rotatably mounted on the slider.

Preferably, a plurality of hanging rings are arranged on the edge of the base along the circumferential direction.

According to the technical scheme, the plurality of guide rails are arranged on the base and are distributed in the X direction and the Y direction, the sliding blocks are arranged on each guide rail and are connected with the positioning air cylinders in a one-to-one correspondence mode, when the positioning air cylinders are opened and extend, the sliding blocks can slide inwards along the guide rails until all the sliding blocks are mutually extruded and enclose skylight glass to be detected, the skylight glass is tightly fixed, and at the moment, the clearance gauge, the dial indicator, the through-stop gauge and the clamping plate can be used for detecting the profile and the contour of the skylight glass. When the detected skylight glass needs to be taken down, only the positioning air cylinder needs to be shortened, the plurality of sliding blocks are driven to slide outwards along the guide rail again, the middle clamping area on the base starts to be loose, the detected skylight glass can be naturally and smoothly taken down, the whole process is convenient to operate, the clamping and fixing stability is high, and the detection result is accurate and reliable.

Additional features and advantages of the utility model will be set forth in the detailed description which follows.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model, and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the description serve to explain, without limitation, the utility model. In the drawings:

fig. 1 is a schematic structural view of a guide rail type skylight glass outer surface detection gauge provided by the utility model;

fig. 2 is a top view of a guide rail type skylight glass outer surface detection gauge provided by the utility model;

FIG. 3 is a top view showing a use state of the inspection tool for detecting the outer surface of the guide rail type skylight glass;

fig. 4 is a use state diagram of the guide rail type skylight glass outer surface detection gauge provided by the utility model.

Description of the reference numerals

1-base 2-guide rail

3-slider 4-location cylinder

5-skylight glass 6-perimeter contour detector

7-perimeter curvature detector 8-support

9-predetermined position 10-jack-up cylinder

11-compress tightly cylinder 12-centering mechanism

13-hanging ring

Detailed Description

The following describes specific embodiments of the present utility model in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the utility model, are not intended to limit the utility model.

In the present utility model, unless otherwise indicated, the terms "inner, outer, far, near, center" and the like are used to denote the orientations of the term in the normal use state, or are commonly understood by those skilled in the art, and should not be construed as limitations of the term.

Referring to fig. 1 and 2, the utility model provides a guide rail type skylight glass outer surface detection gauge, which comprises a base 1 and a plurality of guide rails 2 arranged on the base 1, wherein the plurality of guide rails 2 are arranged in an X direction and a Y direction, each guide rail 2 is slidably connected with a sliding block 3, each sliding block 3 is correspondingly connected with a positioning cylinder 4 one by one, and the plurality of positioning cylinders 4 are arranged to drive the plurality of sliding blocks 3 to simultaneously approach inwards to clamp skylight glass 5 or to separate outwards to loosen skylight glass 5;

each slider 3 is provided with a peripheral outline detector 6 arranged in the X-direction or the Y-direction and a peripheral curvature detector 7 arranged in the Z-direction, and when the slider 3 holds the sun roof glass 5, the peripheral outline detector 6 can detect the peripheral outline of the sun roof glass 5, and at the same time, the peripheral curvature detector 7 can detect the peripheral curvature of the sun roof glass 5.

Through the technical scheme, the plurality of guide rails 2 are arranged on the base 1, the plurality of guide rails 2 are arranged in the X direction and the Y direction, the sliding blocks 3 are arranged on each guide rail 2, each sliding block 3 is connected with the corresponding positioning cylinder 4 one by one, when the positioning cylinder 4 is opened and stretched, the sliding blocks 3 can slide inwards along the guide rails 2 until all the sliding blocks are mutually extruded and enclose the skylight glass 5 to be detected, the skylight glass 5 is tightly fixed, and at the moment, the clearance gauge, the dial indicator, the go-no-go gauge and the clamping plate can be used for detecting the profile and the contour of the skylight glass 5. When the detected skylight glass 5 needs to be taken down, the positioning cylinder 4 is only required to be shortened, the plurality of sliding blocks 3 are driven to slide outwards along the guide rail 2 again, the middle clamping area on the base 1 starts to be loose, the detected skylight glass 5 can be naturally and smoothly taken down (see fig. 3 and 4), the whole process is convenient to operate, the clamping and fixing stability is high, and the detection result is accurate and reliable.

In the present embodiment, in order to support the sunroof glass 5 to be inspected placed on the inspection tool for inspecting the outer surface of the rail type sunroof glass from the bottom, it is preferable that a support 8 capable of supporting the sunroof glass 5 is provided in a central region on the base 1.

When the skylight glass 5 is placed on the supporting piece 8 on the guide rail type skylight glass outer surface detection gauge, in order to accurately place the skylight glass in place, time wasted in manual adjustment for many times is saved, detection efficiency is improved, and a pre-positioning piece 9 is preferably formed on the side surface, close to the supporting piece 8, of the sliding block 3 and used for pre-positioning the skylight glass 5 placed on the supporting piece 8.

When the detection tool for detecting the outer surface of the guide rail type skylight glass is used for removing the detected skylight glass in an auxiliary manual light conveying manner, preferably, the base 1 is further provided with a jacking cylinder 10, and the jacking cylinder 10 is arranged to jack up the skylight glass 5 along the Z direction.

Likewise, in order to assist in placing the sunroof glass 5 on the support member 8 on the inspection tool for inspecting the outer surface of the guide rail type sunroof glass, the sunroof glass can be tightly fixed, and the influence on the accuracy of inspection data caused by displacement of the sunroof glass in the subsequent manual or automatic inspection process is avoided, preferably, the base 1 is further provided with a pressing cylinder 11, and the pressing cylinder 11 is configured to press the sunroof glass 5 along the Z direction.

In order to avoid the roof glass abutting against one side in the X-direction when the inspection tool for inspecting the outer surface of the guide rail type roof glass is used, and to save the time for adjusting the roof glass, it is preferable that at least one of the sliders 3 on the guide rail 2 arranged in the X-direction is provided with a centering mechanism 12, and the centering mechanism 12 is provided so as to be capable of centering the roof glass 5 in the X-direction.

Likewise, in order to avoid the skylight glass abutting against one side in the Y direction when the guide rail type skylight glass outer surface detection tool is used for detection, and save the time for adjusting the skylight glass, it is preferable that at least one of the sliding blocks 3 on the guide rail 2 arranged in the Y direction is provided with a centering mechanism 12, and the centering mechanism 12 is arranged so as to be capable of centering the skylight glass 5 in the Y direction.

In the present embodiment, the peripheral outline detector 6 is a dial indicator rotatably mounted on the slider 3; the peripheral curvature detector 7 is a dial indicator rotatably mounted on the slider 3. The dial indicator adopting the installation mode can rotate to a required angle according to the reading requirement, so that the detecting personnel can conveniently and intuitively read the dial indicator, and the detecting result can be accurately judged.

Since the guide rail type skylight glass outer surface detection gauge has a large volume and a large overall weight, the detection gauge is easy to damage due to the accident of overturning caused by inconvenient manual transportation, and a plurality of hanging rings 13 are preferably arranged on the edge of the base 1 along the circumferential direction in order to avoid the occurrence of the situation. Thus, the lifting device hooks one or more lifting rings 13, so that the guide rail type skylight glass outer surface detection tool can be moved and carried integrally smoothly, and the guide rail type skylight glass outer surface detection tool is safe and efficient.

The preferred embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the specific details of the above embodiments, and various simple modifications can be made to the technical solution of the present utility model within the scope of the technical concept of the present utility model, and all the simple modifications belong to the protection scope of the present utility model.

In addition, the specific features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various possible combinations are not described further.

Moreover, any combination of the various embodiments of the utility model can be made without departing from the spirit of the utility model, which should also be considered as disclosed herein.

Claims (6)

1. The guide rail type skylight glass outer surface detection gauge is characterized by comprising a base (1) and a plurality of guide rails (2) arranged on the base (1), wherein the guide rails (2) are arranged in the X direction and the Y direction, each guide rail (2) is slidably connected with a sliding block (3), each sliding block (3) is correspondingly connected with a positioning cylinder (4) one by one, and the positioning cylinders (4) are arranged to drive the sliding blocks (3) to simultaneously approach inwards to clamp skylight glass (5) or to separate outwards to loosen the skylight glass (5);

each sliding block (3) is provided with a peripheral outline detector (6) and a peripheral curvature detector (7), wherein the peripheral outline detectors are arranged along the X direction or the Y direction, the peripheral outline detectors (6) can detect the peripheral outline of the skylight glass (5) when the sliding blocks (3) clamp the skylight glass (5), and the peripheral curvature detectors (7) can detect the peripheral curvature of the skylight glass (5);

a supporting piece (8) capable of supporting the skylight glass (5) is arranged in the central area of the base (1);

a pre-positioning piece (9) is formed on the side surface, close to the supporting piece (8), of the sliding block (3) and is used for pre-positioning the skylight glass (5) placed on the supporting piece (8);

the base (1) is also provided with a jacking cylinder (10), and the jacking cylinder (10) is arranged to jack the skylight glass (5) along the Z direction;

the base (1) is further provided with a pressing cylinder (11), and the pressing cylinder (11) is arranged to press the skylight glass (5) along the Z direction.

2. The guide rail type skylight glass outer surface detection gauge according to claim 1, characterized in that at least one of the sliding blocks (3) on the guide rail (2) which is arranged in the X direction is provided with a centering mechanism (12), and the centering mechanism (12) is arranged to be capable of centering the skylight glass (5) in the X direction.

3. The guide rail type skylight glass outer surface detection gauge according to claim 2, characterized in that at least one of the sliding blocks (3) on the guide rail (2) which is arranged in the Y direction is provided with a centering mechanism (12), and the centering mechanism (12) is arranged to be capable of centering the skylight glass (5) in the Y direction.

4. The inspection tool for detecting the outer surface of the guide rail type skylight glass according to claim 1, wherein the peripheral contour detector (6) is a dial indicator rotatably mounted on the sliding block (3).

5. The inspection tool for detecting the outer surface of the guide rail type skylight glass according to claim 1, wherein the peripheral curvature detector (7) is a dial indicator rotatably mounted on the sliding block (3).

6. The inspection tool for detecting the outer surface of the guide rail type skylight glass according to claim 1, wherein a plurality of hanging rings (13) are arranged on the edge of the base (1) along the circumferential direction.